Hydraulic steering assembly with motor forming one link of the assembly



July 2, 1957 P. v. wYsoNG, JR.. Er AL 2,797,764

HYDRAULIC STEERING ASSEMBLY WITH MOTOR FORMING ONE LINK OF THE ASSEMBLY Filed July 19. 1954 2 Sheets-Sheet l lvl/@lili f IIIIIU l if INVENTOR ATTORNEY july 2, 1957 P. v. wYsoNG, JR., E-r AL 2,797,764

HYDRAULIC STEERING ASSEMBLY WITH MOTOR FORMING ONE LINK OF THE ASSEMBLY Filed July 19. 1954 2 Sheets-Shee 2 INVENTOR ATTORNEY 2,797,164 Y HYDRAULIC ASSEMBLKMOTQR FORMING ONE LINK F THE ASSEMBLY' Our invention relates "to the `steering ofautomotive vehicles and the like a'ndf'more-partieularlyconcerns a'sysf- Y tem f of apparatus whereby Ythe steering zfunction may be performed with'reduced effort. AIn accordanceftherewith, there is emplyed'a fluid-operated devicefwhich-Yse'rves to 'l balance the reaction of the dirigible-wheelsas necessaryi to enablet'lieii beirig'turnedby a-predeterminedquantmn of manual eort applied at the steering wheel or equiv-wl alent instrumentality.

So called power steering fgears^l1eretofore available which involveuid-ac'tuated 'devicesdepend for their control on a valve which is normallyy open to asource of conventionally incorporates one or more springs; tendingyvl to maintain the movable componentthereof in its neutralposition", corresponding to the-straight-ahead-position'of thedirigible wheels.- f In the -turnin'gof the steering wheel f to displace the movable valve componenthereby toener'f* gize the huid-actuated device `or assister (which must corn- V prise a part directly or indirectlyfanchored to the frame@ of the vehicle) the resistance 'of the spring or springs, supplemented 1in* some vvcases by uid pressure, must lneces# sarily-be overcome. i' This is`said toprovide the operatore` of the vehicle -with ay sense `ot feel Clearly such a synthesized eelis subjectto a nume f ber'of disadvantages.` Thus; it is virtuallyimpossibleto completely eliminatewhatrnightwbe calleda grabbing sensationwhen-the power meansV comes -into play on the` f displacem'entof the-movable valve component. VVA fur-l therdisadvanta'ge fof the jsynthesized feel goes-'to the if factthat Iit unduly-'complicatesfthe construction' of the valve; makingl Aita'- cost'ly' itemboth to fabricate' and to v assemble.

Another-l faultA of 'the' priori powerV vsteering igears has relation-t0 the'pump which'frepresents "the source ofi the press'uieui'd.lfConveritionally, this pump is powered from' vthefengin'ebf thevehicle, being ordinarily beltedto the crankshaft,"and'` isili-constanty operation so longf-as the Y engine is running, excess fluid being by-passed to a reseri i Voir from "whihthe puinp draws. Considering-thatfthe negligible' except during parking and when? the vehicle is travelingat'speeds belowabout '30 M.v P. H., much of the f horsepower exp'e'n'dedfto operateithe pumpfis nottrans` nature of the valve itV is possibleto employ an accumulator as the source of uid pressure soI that the pumplneeds' to operateA onlyjas necessaryito meet the actual'ipower demand.i VVVWith thel valve closed i'rrneutral,v fluid is locked in themotr, whichn becomes'a solid link in the system.- i The urnovablecoxnporient""o' the valvefis in its centered Yeo frame, Vhasnosuchfdixed* connection. In view `of the 2,797,764 Patented July i2, 1957 ice 2 positionV not only when the dirigible wheels are `in their straight ahead' position, but` alsoV when these. wheels` are held fs'teady in a" turned" position.

thatV the road "fee1"provided by theV new apparatus is obtainedessentiallyas with conventionalfunpowered steering gears', henceis lalways' truly proportionate to the actual" steering resistance;` andthrefis no noticeable 'transition' on the power means coming into playa-1 We shallrparticularly described our invention with the aid of the accompanying'drawingsillustrating a preferred embodimentfthereof: In the drawingsi Figureff'l 'is a diagrammatic' plan `ofra typical` instal# lation;

Figure'Z Vis a fragmentary sectionshowing-ftheA principal parts@ of thefvalve componentof the apparatus;`

Figure' 3: is a longitudinal'section,through'the valve and the actuating meansttherefor; and" f Figurer4'is a diagrammatic representation in plan of a diierent form of installation.

Referringrst to Figure I the numeral-10 denotes a' control or steering shaft"carryingfat4 its upper' end fthe usual-steeringwheel-1'2L Shaft ltlterminates 4at its lower endin reduction gearing14 which'=may vbe of any suitable typeJrfA steering 'arm or'rockshaft `16 actuatedf'through "f the reduction Agearingturns about aipivot *18,:demarcat-I ing` two lever arms .'26 `aind22. ""The longer.r lever arm '20 is connected via Ia` ball stud 24- toV Valve" actuating means,-

generally indicatedat 26, While the shortlever arm` 22 is linked'viaarodZS to a second rocker arm 30 pivoted` Rocker arm 30 is connected at its end opposite the rod knuckle TarmsSZ, onlyone of which appears in the draw# ing, constitutes a typical parallelogram linkage Going nowtto Figure 3'; it will be seen that the`ball stud 24 carried at the freeend of the longer lever" ar'm20 is disposedfletwe'enia' pair of ball `seats=54v confined withinV a plunger'f56` axially'movableV withinpredete'rmined limits;

in a sleevey 58,' `whichis eitherxedlysecured toV or integral with the drag link `46."""Spring 167 maintains the seats r54 in propercontact with the ball stud.:"Sleeve 58 has fbolted" thereto the housingportion60 of a control valve"`62,'1closed""at its opposite-fend by a` cover 4or cap Housing "60' is'of 4generally cylindrical conformation and is madehollow to accommodate a spool' piece 66, which comprisesl a-pair of annularlands 68, .70 normally maintaining the passageways 72 and74 closed Thesepassageways' open;respectively, to conduits 17 6 and 78 which extend; respectively, `to therightend and 4left'end of the cy1inder"'40 (Fig. l).

In addition to passageways 72 and 74, the Valve housing 60 Vis bored-fand Vcounterbored to provide` passageways 80, 82 and 84 (FigureZ). Passagewayt).communicates with faiconduit `leading-from an accumulator `88 (Fig. l), rnaintained= under a predetermined pressure by a pump 90 drawing from a reservoir 92;"whi1e`v passageways '82 and 84l each communicate with a conduit 94 interconnecting the valve housing? and the reservoir`92.

Reverting to the Valve spool 66, there will be seen eX- tending centrally therethrough' a rod -96 (Fig. 3) which is threadedV at its 'left hand end to accommodate a nut 98 abutting the corresponding end of the spool. Near its oppositeiend, fstem`96'i's enlarged to provide'aportion shouldeingfintora centrally bored-plug v10|),f`slecured to Moreover,` the apparatusL is not broughtrto neutral' condition as heretofore merely by the'geometry of thelsteeringlinkagepluslthe' spring-centering' force; ratherthe returnto neutral' y'is also '7 a powered operation. Perhaps mostimportanti's the .factf the stem by a riveting over. Plug 100 abuts a second and larger plug 104 threaded into the plunger 56 and having an annular flange 108.

A pair of seals 110, 112 will be seen`disposed over an'- nular rings 114 which may be made integral with the valve housing 60. Seal 110 is secured in place by a ringpiece 116 shouldered into the left hand end of the sleeve 58, while seal 112 is backed by an annular ring 118 held in place hy a lock ring 120 accommodated in an annular groove formed in the valve housing.

It should be clear that spool 66, stem 96, the two plugs 100,104, and the plunger 56 constitute one functional part longitudinally movable within the limits set by the annular shoulder 122 and the ring 116, which act as stops with respect to the flange 108.

To explain now the operation of the apparatus of Figures 1 3 let it be assumed that the operator of the Vehicle wishes to negotiate a left turn. OrlV the counterclockwise rotation of the steering wheel 12 and the shaft 10 (viewing Figure 1 from the right hand edge of the sheet) the rock arm 16 is caused toturnclockwise about its pivot 18, this action being accompanied by like turning of the second rock arm 30 about the pivot 32. Taking into consideration that the piston 36 is hydraulically locked in the cylinder 40 when the dirigible wheels and the valve spool are in center position, the link comprising the piston and cylinder initially functions as a solid link to exert a force tending to swing the idler arm 42 clockwise on its pivot. Thus the reaction or resistance of the dirigible Wheels to turning is felt. at the steering wheel 12 justas in the case of an ordinary manual steering gear, and this reaction is always proportionate to the actual steering resistance, a condition which is manifestly highly desirable. Assuming a resistance of any given value, the manual effort required at the steering wheel is predetermined since the mechanical advantage of the system represented by the lever arm 22, rod 28 and the second lever arm 30 is a constant.

Lever arm 20 being of greater length than lever arm 22 swings through a greater arc than the latter arm. Accordingly, therightward movement of the ball stud 24 is greater than that of the drag link 46 as induced by the clockwise swinging movement of the idler arm 42, with the result that the valve spool 66 (Figure 3) is displaced to the right so that pressure fluid is allowed to flow from thevalve into the passageway 72, thence to the right hand chamber of the cylinder .40 via the conduit 76. Such displacement of the spool also places conduit 78 in open communication with the valve porting corresponding to the return line 94 to the reservoir 92.

The pressurization of the right hand end of the cylinder which theshorter component of the rocker arm 30 travels.

The extent of the pressurization of the right hand end of the cylinder 40 is determined by the steering resistance and in any case is suicient to balance the reaction of the dirigible wheels as necessary to allow for the turning thereof by the quantum of manual effort set by the mechanical advantage of the linkage system involving the parts mediate the pivot 18 and the connection 124. Proportionate feel continues throughout the steering operation, the thrust of the pressure iiuid being exerted against the piston 36V and thence through the train of apparatus therebehind to-the steering wheel 12.

-On cessation of the manual effort at the steering wheel, the geometry of the steering linkage begins to function just as in the instance of an ordinary mechanical steering system to restore the dirigible wheels to their center position. The consequent movement of the drag link 46 to the left, acting through locked cylinder 40 and the train of apparatus appendant thereto, displaces the spool 66 in that direction (the spool immediately recentered on eessation of the manual elort) opening the left hand chamber of the cylinder 40 to the source of fluid pressure i. e.,l line 86, and placing the right hand chamber of the cylinder in communication with the exhaust line 94. The link comprising the piston land cylinder contracts on the resultant leftward movement of the cylinder relative to the piston so as to equalize the diiference between the swinging arcs of the idler arm 42 and the lower cornponent of the rocker arm 30. Return of the dirigible wheels to center is marked by simultaneous re-centering of the valve spool without over-shooting.

It should be noted that since the valve action is controlled either from the steering wheel end of the apparatus or from the end represented by the dirigible wheels, the apparatus may be classed as a reversible position servo, which is believed entirely novel in the power steering art.

Should some component of the power equipment be damaged to such an extent that it is rendered inoperable, the vehicle can be readily steered manually through the flange 108 carried by the plug 104, the lost motion represented by the clearance between the shoulder 122 and the annulus 116 presenting no serious difficulty even to an inexperienced operator. A

In the making of a right turn the action obviously will be just the opposite of that above described. In other Words, the turning of the dirigible wheels will proceed with pressurization of the left hand rather than the right hand chamber of the cylinder 40 and the link comprising these parts will shorten or contract instead of expanding.

Referring now to the modilied installation of Figure 4, wherein parts corresponding to parts shown in Figure l are correspondingly identied but with primed numerals, it will be seen that this system is fundamentally distinguished in the use of a bell crank 128 pivoted at 130. The bell crank is connected to a pair of tie rods 132 each of which is linked to a steering knuckle arm 52'; only one of which appears in the'gure..

The output of the reduction gearing 14 is represented by the pitman arm or rock shaft 134 which is connected to a drag link 136. The latter directly actuates a rocker arm 138 pivoted at 140, this pivot and pivot 130-having a common fixed base 142.

Arm 138 will be noted as having a pin and slot connection 144 with a short shaft 146 through which the spool component of the valve 62 is actuated. The ball stud 148 at the valve end of the bell crank 128 should be considered as received in a socket suitably formed in the valve housing, an expedient heretofore known in the art. The operation of the valve will be readily understood from the previous description. v

Rocker arm 138 is connected to the shaft 150 of the piston 36 via a pair of links 152 and 154, the latter being pivoted at 156. The housing of the valve 62' and the cylinder 40 may with advantage constitute a single assembly. In any case these two parts must be arranged to move as a unit.

Assuming a left turn with the apparatus shown in Figure 4, the counterclockwise rotation of the steering wheel 12 will bring about rearward or'rightward movement of the drag link 136, with corresponding movement of the link including the hydraulically locked cylinder 40. Due to the fact that the distance between the pivot 140 and the connection 144 is greater than the distance between such pivot andthe connection 158 (also note the relative shortness of the lever arm 160) shaft 146, and with it the valve spool, is caused to travel to the right a greater distance than the cylinder link. The-consequent displacement of the valve spool to the right (see Figures 2- and 3) places the right hand chamber of the cylinder in communication with the source of uid pressure and the left hand chamber in communication with the exhaust line 94', the uid ow being through conduits 162 and 164, respectively.

The pressurization of the right hand chamber of the cylinder brings about rightward movement of the cylinder relative to the piston 36' with shortening of the com- .l

avea-764 prising-'these parts.' As before; the extent of the pressurig 1 zation` is such as to balance vthe reactibn-'ofI the dirigible'r wheelsasrnecessary to allow for thefturn beingaccoml i plished'through the applicationat the steering Wheel 12 of a predetermined quantum of manual V-effort set`by the mechanical advantage of the linkage system.'V

In the negotiation of a rightturn, it should be obviousF that the left hand chamber lof the-cylinder 40 will be initial movement of the dirigible wheels is accomplished mechanically through the high ratio mechanism'composedV of the reduction gear ,and the linkage ysystem between the steering shaft and the piston component of thetluidV motor." Such ratiol is' equal to the ratio of the reduction gear multiplied by the ratio of the linkage system. Thus',

in the instance -of the embodimentof Figure'l' it 'can be readily seen that' during the interval of the initial movement, 'the draglink 46 movesslower' than the pitman ball 24. `Accordingly, the operatorhas a Vernier adjust-` ment available to make minorcorrectionslin the posi-r` tion of the dirigib'le wheels at anytime/that the valve is in -a neutral pos-ition.- moved enough to displace thevalve from its neutral posif' tion, oil admitted tothe cylinder'40 thenl'cause thednag link 46 to follow the pitman arm ball 24. This ball is moving at a 'ratedetermin'ed-by the vratioof the reduction gear 14 and the arm 20. V'Consequently the drag link experiences a speed change -at the instant the valve is opened-,Walthough'the operator is moving the steering wheel 12V at a-constant rater `Since the thrust lacting throughthe cylinder40 does not change at` the instant of Valvingfthe load at the A`steering wheel12 remains constant. lBecause ofV this, the operfator is unaware of any change' in the-steering system'ratio'.

Similar effects are had in the'case'offthe 4embodiment of Figure 4.` -Here again during the interval of the yinitial movement the 'steering'is accempii'sh'ed'via the hydralii cally lockedmotor" and *the 'auxiliarydink'ag' system (levers 138, 152 and 154). This follows because ports 72 and 74 of the control valve are substantially overlapped by the lands of the va'lve spool (Fig. 3), a condition permitting the desired movement of the auxiliary linkage without energiza-tion of the motor. When the lever 138 has moved enough to displace the spool beyond the valving edge of the land, pressure iluid is admitted to the motor to power the bell crank in the proper direction. As above, the operator is unaware of any change in the steering system ratio occasioned `by the motor coming into play.

Having thus described and illustrated our invention what we claim is:

l. Steering apparatus comprising a source of liluid pressure, la manually actuable steering member, a steered member, a linkage between said members, a fluid motor supplied from said source and including a pair of relatively movable parts one of `which is connected to a component of said linkage, a closed-center control valve for said motor displaceable on `actuation of said steering member, and a force multpilying lever system interconnecting said steering member and the other yof said pa-rts of said motor, said apparatus being characterized in operation in that during the initial stage of the steering action the steering is effected through said lever system and said motor which then acts as a solid member and As Isoon vas the linkage rhas" in that` follown'gisaideinitial `stage said' valve'is displaced to energize rsaidrmotvoiwhichfexpands or contractsv def' pendingluponthe direction of turn to balance 'the reaction of the `load as necessary to allow for the steering being T accomplishedfibya predetermined quantum of manual-1 effort applied at saidfsteering member.

2. lSteering apparatus comprising 4a sourcel of iluid pressure, a mamiallyactuable' steering member, a steered mem'berga linkage between'said members, la fluidi motor includingl a cylindencomphent supplied' frorr said source and a piston component-reciprocal within 'saidcylindei-,f

one of saidifmotorcomponents being :connected to componentfof said' llinka'gega closed-center control valve 4for'said motor'displaceable on actuation -of said steeringy member," andV a force "multiplyinglever system interconnecting'said steering memberand the other' o'f said' motor components, said" Vapparatus `being characterized in operation in that 'during' the initial stage of the steering action'thesteering is elected throughsaid lever system and'saidmotor which then acts as a solid member and in that`following saidinitial stage saidY valve is displaced'to energizesaidfmotor which expands or'contra'ctsdepende-V ing -ilponfthe direction of turn to 'balance the reaction'of the'load ,as necessary togallow @forthe steering being 'accomplished' 'by av predetermined quantum of manual effort applied" at s'aid` steering member.

cylinderV being supplied *withpressure fluid from said source,-aV closed-center control valve' connectedto said steering member through=reduction gearing and displaceable Von 'actuation of said 'steering member, and a force' multiplying lever system interconnecting'- `said steering member and said piston, said apparatus being characterized in operation `in thatrduring the initial stage of the i steering action the steering is effected through said lever' system and said Ymotor which then acts as a solid member and in that following said initial stage said valve is dis placed to energize said motor which expands or contracts dependingupon the direction of turn to balance-the reaction of the load as necessary to `allow for the steering being accomplished by a predetermined quantum of manual Veffort applied at said steering member.

4. `Steering apparatus comprising a source of fluid presl sure, a manually Iactuable steering member, a steered member; a linkage between said members, a fluid motor inclu-ding a cylinder connected to a lcomponent of said -linkage and a piston reciprocal within said cylinder, said cylinder being supplied with pressure uid -from said source, a closed-center control valve connected to said steering member through reduction gearing and a lever element, and force multiplying lever means interconnecting said lever element and said piston, the connections between said element and said means and between said element and said Valve being made at opposite sides of the fulcrum point of said element, said apparatus being characterized in operation in that during the initial stage of the steering action the steering is eected through said lever system land said motor which then acts las a solid member and in that following said initial stage said valve is displaced to energize said motor which expands or contracts depending upon lthe direction of turn to balance the reaction of the load as necessary to allow for the Steering being accomplished by la predetermined quantum of manual eiort `applied at said steering member.

5. 'Steering apparatus comprising a source of fluid pressure, a manually -actuable steering shaft, a steered member, a para-llelogram linkage including an idler larm and a cross tie rod between said shaft and said member, a iluid motor including a cylinder connected to said idler arm Iand a piston reciprocal within said cylinder, said cylinder being supplied with pressure iiuid from said Source, aclos'ed-center control valvecarried'by said cross tie rod 'and connected to said steering shaft through reduction gearing and a lever element, and force multiplying lever means interconnecting said lever element and said piston, the connect-ions between said element and said means and between said element and said valve being made at opposite sides lof the fulcrum point of said element, said apparatus being characterized in operation in that during the initial stage of the steering action the steering is effected through `said lever means land `said motor which then acts as a solid member and in that following said initial stage Isaid valve is displaced to energize said motor which expands or contracts depending upon the direction of turn to balance the reaction of the 'load as necessary to allow Yfor the steering being accomplished by a predetermined quantum of manual effort applied 4at said steering shaft.

.6. Steering apparatus comprising a source of uid pressure, a manually actuable steering shaft, a steered member, a linkage including a bell crank between said shaft and said member, a Huid motor including a cylinder connected to said bell crank and a piston reciprocal within 'said cylinder, said cylinder being supplied With pressure fluid from said source, a closed-center control valve integrated with said cylinder and connected to said steering shaft through reduction gearing and through a reachirod and a lever element, and force multiplying lever means interconnecting said lever element and said piston, the connections between said element and said means and between said element and said valve being made at opposite sides of the fulcrum point of said element, said apparatus being characterized in operation in that during the initial stage of the steering action the steering is effected through said lever means and said motor which then acts as a solid member and in that following said initial stage said valve is displaced to energize said motor which expands or contracts depending upon the direction of turn to balance the reaction of the load as necessary to allow for the steering being accomplished by a predetermined quantum of manual elfort applied at said steering shaft.

7. Steering apparatus comprising a source of fluid pressure, a manually actuable steering member, a steered member, a linkage between said members, a fluid motor supplied from said source and including a pair of relatively movable parts one of which is connected to a component of said linkage, closed-center control valve connected to said steering member through reduction gearing and displaceable on aetuatinbf'said steering member, and a force multiplying lever system interconnecting said steeringmember andthe other of said parts of said motor, said apparatus being characterized in operation in that during the initial 'stage of the 'steering action the steering is effected through said lever system and said motor whichithen ac`ts`as a solid member and in that following said initial stage said valve is displaced to energize said motor which expands or contracts depending upon the direction of turn to balance the reaction of the load as necessary to allow for the steering being accomplished by a predetermined quantum of manual effort applied' at said steering member.

8. Steering apparatus comprising a source of fluid pressure, a manually actuable steering member, a steered member, a linkage between said members, a fluid motor supplied from said source and including a pair of relatively movable parts one of which is connected to a comf ponent of said linkage, a closed-center control valve connected to saidsteering member through reduction gearing and a lever element, and force multiplying lever means interconnecting said lever element and the other of said parts of said motor, the connections between said element and said means `and between said element and said valve' being made at opposite sides of the fulcrumv elort applied at said steering member.

References Cited in the file of this patent UNITED STATES PATENTS 2,020,041 Rockcastle et al Nov. 5, 1935 2,369,324 Thompson Feb. 13, 1945 2,427,340 Allison Sept. 16, 1947 2,429,185 Hukill Oct. 14, 1947 2,447,815 Price Aug. 24, 1948 2,676,663 Smith Apr. 27, 1954 FOREIGN PATENTS 1,084,124 France Jan. 17, 1955 (Corresponding U. S. 2,732,904, Ian. 31, 1956) 

